ÓÍÆøúÓËͬÅè¹²´æ³É²Ø(¿ó)»úÀíÓ븻¼¯·Ö²¼¹æÂÉ-(ÉÏ.ϲá)

Ŀ¼³Á»ýÅèµØ¶¯Á¦Ñ§ÓëÄÜÔ´¿ó²ú¡ª¡ª´ú´ÔÊéÇ°ÑÔÇ°ÑÔ**ƪ ÓÍÆøúÓËͬÅè¹²´æÌØÕ÷ºÍÆä³É²Ø(¿ó)Óë·Ö²¼**Õ ȫÇòÓÍÆøúÓ˲Ø(¿ó)ͬÅè¹²´æÌØÕ÷Óë·Ö²¼¹æÂÉ 3**½Ú È«ÇòÓË¿óºÍÉ°ÑÒÐÍÓË¿óµÄ²ú´¢Á¿ 3µÚ¶þ½Ú È«ÇòÒÑ·¢ÏÖÉ°ÑÒÐÍÓË¿óµÄÌØÕ÷ºÍ·Ö²¼ 15µÚÈý½Ú ÓÍÆøúÓ˲Ø(¿ó)ͬÅè¹²´æÌØÕ÷ 26²Î¿¼ÎÄÏ× 35µÚ¶þÕ Öж«ÑÇÄÜÔ´¿ó²ú³É¿óÓò 46**½Ú Öж«ÑdzɿóÓòÇø»®ÓëÄÜÔ´ÅèµØ·Ö²¼ 46µÚ¶þ½Ú Öж«ÑdzɿóÓòÄÜÔ´ÅèµØÀàÐÍ 55µÚÈý½Ú ¶àÖÖÄÜÔ´¿ó²ú¸³´æÌصãÓë·Ö²¼¹æÂÉ 58µÚËÄ½Ú ¶àÖÖÄÜÔ´ÅèµØÑÝ»¯¼°ÆäµØÇò¶¯Á¦Ñ§»·¾³ 65²Î¿¼ÎÄÏ× 70µÚÈýÕ ÓÍÆøúÓËͬÅè¹²´æ³É²Ø£¨¿ó£©Óë·Ö²¼ÀíÂÛ¼°½øÕ¹ 73**½Ú ÓÍÆøúÓ˵Ļù±¾ÌØÐԺͳɿóÌصã 73µÚ¶þ½Ú ¹²´æÌØÕ÷Óë·Ö²¼¹æÂÉ 79µÚÈý½Ú ³É¿óÌõ¼þºÍ¸³´æ»·¾³ 88µÚËÄ½Ú ÓÍÆøúÓËÏ໥×÷ÓÃÓë¹²´æ³É²Ø£¨¿ó£©»úÀí 119µÚÎå½Ú ¶àÖÖÄÜÔ´¿ó²ú¹²´æµÄ×ÛºÏÅÐʶÌåϵ 148µÚÁù½Ú ¶àÖÖÄÜÔ´¿ó²ú×ÛºÏÆÀ¼ÛÔ¤²âÓëЭͬ¿±Ì½¿ª·¢ 156²Î¿¼ÎÄÏ× 165µÚ¶þƪ ¶õ¶û¶à˹ÅèµØÉ½á¹¹¡¢¹¹ÔìÈÈÌØÕ÷¼°ÑÝ»¯µÚËÄÕ ¶õ¶û¶à˹ÅèµØ¼°ÁÚÇøµØÇòÎïÀí³¡ÓëÉ½á¹¹ 179**½Ú ÅèµØ¼°ÁÚÇøµÄµØÇòÎïÀí³¡ºÍÉ¹¹ÔìÌØÕ÷ 179µÚ¶þ½Ú ÅèµØÄϲ¿¼°ÖÜÁڵؿÇÉϵØ᣽ṹ¿íƵµØÕð¹Û²â 184µÚÈý½Ú ÅèµØÄϲ¿¼°ÖÜÁÚÃ沨ƵɢÌØÕ÷ÓëһάËٶȽṹ·´ÑÝ 200µÚËÄ½Ú ÅèµØÄϲ¿¼°ÖÜÁÚÖÐÐÂÉú´ú¹¹ÔìÑÝ»¯¶¯Á¦Ñ§µÄÉÒÀ¾Ý 205²Î¿¼ÎÄÏ× 208µÚÎåÕ ¶õ¶û¶à˹ÅèµØµØγ¡ÌØÕ÷ÓëÈÈÑÝ»¯Ê· 212**½Ú ÅèµØÏÖ½ñµØγ¡ÌØÕ÷ 212µÚ¶þ½Ú ÅèµØÖÐÉú´úÍíÆڹŵØγ¡»Ö¸´ÓëÖÐÉú´úÈÈÒì³£ÌØÕ÷ 220µÚÈý½Ú ÅèµØºóÆÚ̧ÉýÀäÈ´¼°ÅèµØÈÈÑÝ»¯»Ö¸´ 230µÚËÄ½Ú ÅèµØ¼°ÁÚÇø¹¹ÔìÈÈʼþºÍÆäÐγɱ³¾° 238µÚÎå½Ú ÅèµØÈÈÑÝ»¯Ê·Óë¶àÖÖÄÜÔ´¿ó²úÐγɵĹØϵ 243²Î¿¼ÎÄÏ× 247µÚÁùÕ ¶õ¶û¶à˹ÅèµØÖÐÐÂÉú´ú¹¹ÔìʼþÄê´úѧ 251**½Ú ÅèµØÎ÷ÄÏÔµÖÐÐÂÉú´ú¹¹ÔìʼþµÄÄê´úѧ¼Ç¼ 251µÚ¶þ½Ú ÅèµØ¶«±±²¿ÖÐÐÂÉú´ú¹¹ÔìʼþµÄÄê´úѧ¼Ç¼ 260µÚÈý½Ú ÅèµØÖÐÐÂÉú´ú¹¹ÔìÑÝ»¯Ê¼þµÄ·åÖµÄêÁä×ø±ê 270µÚËÄ½Ú ÅèµØ¶«±±²¿ÖÐÐÂÉú´ú¹¹ÔìÈÈת»»¼°Æä³É¿óЧӦ 275²Î¿¼ÎÄÏ× 293µÚÆßÕ ¶õ¶û¶à˹ÅèµØÖÐÐÂÉú´ú³Á»ýÂñ²ØÊ· 296**½Ú ÏÖ½ñµØ²ã¸ñ¼Ü 296µÚ¶þ½Ú ²»ÕûºÏÃæ¶ÔÓ¦µÄ°þÊ´ºñ¶È»Ö¸´ 304µÚÈý½Ú µØ²ãÂñ²ØÊ· 314²Î¿¼ÎÄÏ× 320µÚ°ËÕ ¶õ¶û¶à˹ÅèµØÐÂÉú´ú¹¹Ô췴ת¼°Æ䶯Á¦Ñ§»·¾³ 323**½Ú ÅèµØÐÂÉú´ú¶«Î÷²¿¹¹Ô췴תµÄÈ·¶¨ÒÀ¾Ý 323µÚ¶þ½Ú ÅèµØ¶«Î÷²¿¹¹Ô췴תµÄÒâÒå 331µÚÈý½Ú ÅèµØÐÂÉú´ú¹¹Ô췴תµÄ¶¯Á¦Ñ§»·¾³ 332²Î¿¼ÎÄÏ× 337µÚ¾ÅÕ ¶õ¶û¶à˹¸ßÔ­ÐγÉÑÝ»¯Óë»·¾³±äǨ 340**½Ú ÖÐÐÂÊÀÖÐÍíÆÚÖÁµÚËļͳõ¶õ¶û¶à˹¸ßÔ­ÐÎ³É 340µÚ¶þ½Ú ¶õ¶û¶à˹¸ßÔ­¼°ÖÜÔµµØÇøºìð¤ÍÁ 344µÚÈý½Ú ¡°ºìÍÁ¸ßÔ­¡±½âÌåÓë»ÆÍÁ¸ßÔ­Ðγɼ°»·¾³±äǨ 359²Î¿¼ÎÄÏ× 363µÚÈýƪ ÓлúÎÞ»úÁ÷ÑÒ×÷ÓÃÓëÄÜÔ´¿ó²ú¹²´æÎïÖÊ»ù´¡µÚʮՠ³Á»ýÓлúÏà·Ö²¼Ä£Ê½¼°ÓлúÄÜÔ´¿ó²úͬÅè¹²´æµÄµØÇò»¯Ñ§Ìõ¼þ 371**½Ú ³Á»ýÓлúÏà 371µÚ¶þ½Ú ÖÐÉú½ç³Á»ýÓлúÏà»®·Ö¼°ÏàÌØÕ÷ 372µÚÈý½Ú ÖÐÉú½ç³Á»ýÓлúÏàģʽÓëÉúÌþDZÁ¦¼°³É¿óÀàÐÍ 381µÚËÄ½Ú ³Á»ýÓлúÏàµÄÊýÖµ»¯·ÖÎö·½·¨Ì½ÌÖ 385²Î¿¼ÎÄÏ× 387µÚʮһÕ ¶õ¶û¶à˹ÅèµØ³Á»ýµØ²ã·ÅÉäÐÔÒì³£¼°·Ö²¼ÌØÕ÷ 390**½Ú ·ÅÉäÐÔÒì³£µÄʶ±ð 390µÚ¶þ½Ú ÅèµØÄڵزã·ÅÉäÐÔÒì³£·Ö²¼ÌØÕ÷ 391µÚÈý½Ú ·ÅÉäÐÔÒì³£³ÉÒò·ÖÎö 402µÚËÄ½Ú ÅèµØÄڵزã·ÅÉäÐÔÒì³£µÄÐγɻ·¾³ºÍÐγɻúÀí 409²Î¿¼ÎÄÏ× 413µÚÊ®¶þÕ ¶õ¶û¶à˹ÅèµØÑÓ³¤×鳤 7¶ÎÌþÔ´ÑÒÓËÔªËØ·Ö²¼¡¢¸³´æ״̬¼°¸»¼¯»úÀí 415**½Ú ÑÓ³¤×鳤 7¶ÎÌþÔ´ÑÒµÄÓËÒì³£ÌØÕ÷¼°²â¾®Ê¶±ð 415µÚ¶þ½Ú ³¤ 7¶ÎÓËÒì³£ÓÍÒ³ÑÒµÄÑÒʯѧÓëÔªËصØÇò»¯Ñ§ÌØÕ÷ 422µÚÈý½Ú ³¤ 7¶ÎÓËÒì³£ÌþÔ´ÑÒÖÐÓ˵ĸ³´æ״̬Ó븻¼¯»úÀí 434²Î¿¼ÎÄÏ× 445µÚÊ®ÈýÕ ¶õ¶û¶à˹ÅèµØ±±²¿ÉϹÅÉú½çÌìÈ»ÆøÏò±±ÔËÒÆɢʧ 446**½Ú ÌìÈ»ÆøÔËÒÆɢʧµÄµØÇò»¯Ñ§Ö¸±ê 446µÚ¶þ½Ú ÌìÈ»ÆøÔ˾۶¯Á¦ÓëͨµÀ 454µÚÈý½Ú ÌìÈ»ÆøɢʧÁ¿¹ÀËã 457²Î¿¼ÎÄÏ× 463µÚÊ®ËÄÕ ÅèµØ¶«±±²¿ÌìÈ»ÆøºÄÉ¢ÓëÉ°ÑÒƯ°×ÏÖÏó 465**½Ú ÌìÈ»ÆøÒÝÉ¢µÄµØÖʵØÇò»¯Ñ§Ö¤¾Ý 465µÚ¶þ½Ú ÅèµØ¶«±±²¿É°ÑÒƯ°×ÏÖÏó¼°ÆäÐγɻúÖÆ 477²Î¿¼ÎÄÏ× 496µÚÊ®ÎåÕ ¶õ¶û¶à˹ÅèµØ±±²¿ÌìÈ»ÆøÔËÒƺÄÉ¢¼°ÆäµØÖÊЧӦºÍÅÐʶ±êÖ¾ 500**½Ú ¸ÅÊö 500µÚ¶þ½Ú ÌìÈ»ÆøºÄÉ¢×÷ÓÃÖ¤¾Ý 502µÚÈý½Ú µØÖÊÊ´±äºÍÓ˸»¼¯Ð§Ó¦ 507µÚËÄ½Ú µØÖÊÊ´±äЧӦµÄ³ÉÒò·ÖÎö 519µÚÎå½Ú ÌìÈ»ÆøºÄÉ¢µØÖÊЧӦµÄÏà¹ØʵÑé½øÕ¹ 532µÚÁù½Ú ÌìÈ»ÆøºÄɢʴ±äµÄÅÐʶ±êÖ¾ÓëÓ˳ɿóģʽ 537²Î¿¼ÎÄÏ× 542µÚÊ®ÁùÕ ¶àÖÖÄÜÔ´¿ó²úÈÈÒº»î¶¯µØÇò»¯Ñ§¼Ç¼ 545**½Ú ¶àÖÖÄÜÔ´¿ó²ú³É¿ó£¨²Ø£©»·¾³ÌØÕ÷ 545µÚ¶þ½Ú ¶àÖÖÄÜÔ´¿ó²úÈÈÒº»î¶¯µØÇò»¯Ñ§¼Ç¼ 550²Î¿¼ÎÄÏ× 563µÚËÄƪ ¶õ¶û¶à˹ÅèµØÓÍÆøúÓ˸³´æ¡¢³É²Ø(¿ó)Óë·Ö²¼µÚÊ®ÆßÕ ¶õ¶û¶à˹ÅèµØÓÍÆø¸³´æ¡¢³É²ØÓë·Ö²¼ 567**½ÚÅèµØÓÍÆø¸³´æµÄµØÖʱ³¾° 567µÚ¶þ½Ú ¹ÅÉú½çÌìÈ»Æø¸³´æÌØÕ÷ 571µÚÈý½Ú ÅèµØÖÐÉú½çʯÓ͸³´æÌØÕ÷ 583²Î¿¼ÎÄÏ× 598µÚÊ®°ËÕ ¶õ¶û¶à˹ÅèµØÑÓ³¤×éµÍÉø͸ÓÍÌïµÄ³É²ØÐÂģʽ 601**½Ú Î÷·åÓÍÌïµÄµØÖʱ³¾°Óë³É²ØÌõ¼þ 601µÚ¶þ½Ú Î÷·åÓÍÌïÖ÷Á¦´¢²ãµÄ³ÉÑÒ×÷ÓÃÓëÓÍÆø³ä×¢ÀúÊ· 605µÚÈý½Ú Î÷·åÓÍÌïÓÍÆø¶þ´ÎÔËÒÆ·½ÏòÓëÀï³Ì 611µÚËÄ½Ú Î÷·åÓÍÌïµÄ³É²Ø¹ý³ÌÓëģʽ 618²Î¿¼ÎÄÏ× 623µÚÊ®¾ÅÕ ÅèµØ±±²¿Á÷Ì嶯Á¦¡¢ÔËÒÆͨµÀÓë³É²Ø(¿ó)ЧӦ 632**½Ú Ë®¶¯Á¦ÌåϵµÄ·Ö¸ôÐÔ 632µÚ¶þ½Ú Á÷Ì嶯Á¦µÄ·Ö²¼ÓëÑÝ»¯ 641µÚÈý½Ú ÌìÈ»ÆøÔËÒƵÄÓÅÊÆͨµÀ 653µÚËÄ½Ú ÌìÈ»ÆøµÄÔËÒÆ¡¢³É²Ø¹æÂÉ 660²Î¿¼ÎÄÏ× 674µÚ¶þʮՠ¶õ¶û¶à˹ÅèµØúµØÖÊÌØÕ÷¡¢·Ö²¼¹æÂÉÓë×ÊԴDZÁ¦ 678**½Ú ʯ̿¶þµþ¼ÍúÌïµØÖÊÌØÕ÷Óë×ÊԴDZÁ¦ 678µÚ¶þ½Ú Èýµþ¼ÍúÌïµØÖÊÌØÕ÷Óë×ÊԴDZÁ¦ 686µÚÈý½Ú ÙªÂÞ¼ÍúÌïµØÖÊÌØÕ÷Óë×ÊԴDZÁ¦ 686µÚËÄ½Ú ÃºÌ¿×ÊÔ´Ó뿪·¢ÏÖ×´·ÖÎö 693µÚÎå½Ú ú²ãÆø×ÊÔ´ 694²Î¿¼ÎÄÏ× 701µÚ¶þʮһÕ ¶õ¶û¶à˹ÅèµØÄϲ¿É°ÑÒÐÍÓË¿ó·Ö²¼¼°Æä»ù±¾ÌØÕ÷ 703**½Ú ÅèµØÄϲ¿ÓË¿óÀàÐͼ°Ê±¿Õ·Ö²¼ 703µÚ¶þ½Ú ÅèµØÄϲ¿É°ÑÒÐÍÓË¿ó»ù±¾ÌØÕ÷ 707µÚÈý½Ú ÅèµØÄϲ¿Óë±±²¿É°ÑÒÐÍÓ˳ɿó×ۺ϶ԱÈÑо¿ 721²Î¿¼ÎÄÏ× 725µÚ¶þÊ®¶þÕ ¶õ¶û¶à˹ÅèµØ¶ÏñÞ´øʽɰÑÒÓË¿óµØÖÊÌØÕ÷Óë³É¿ó×÷Óà 726**½Ú »Ý°²±¤µØÇøÓ˳ɿ󻷾³ 726µÚ¶þ½Ú »Ý°²±¤É°ÑÒÐÍÓ˿󴲿ó»¯ÌØÕ÷ 732µÚÈý½Ú Î÷Ôµ¶ÏñÞ´øʽ»Ý°²±¤Ó˳ɿóģʽ 742²Î¿¼ÎÄÏ× 745µÚ¶þÊ®ÈýÕ ¶õ¶û¶à˹ÅèµØ¶«±±²¿ÙªÂ޼ͺ¬ÃºÑÒϵÓëÓ˳ɿó¹Øϵ 746**½Ú º¬Ãºº¬ÓËÑÒϵµÈʱµØ²ã¸ñ¼Ü 746µÚ¶þ½Ú ÙªÂ޼ͺ¬ÃºÑÒϵÉúÌþÄÜÁ¦ 751µÚÈý½Ú ÙªÂ޼ͺ¬ÃºÑÒϵ¶ÔÓ˳ɿóµÄDZÔÚÓ°Ïì 754²Î¿¼ÎÄÏ× 759µÚ¶þÊ®ËÄÕ ¶«Ê¤µØÇøÉ°ÑÒÐÍÓË¿óÓлúµØÇò»¯Ñ§ÌØÕ÷ÓëÓлúÖÊÀ´Ô´ 762**½Ú ÑùÆ·ÓëʵÑé 763µÚ¶þ½Ú ÓлúÖʵĵØÇò»¯Ñ§ÌØÕ÷¼°ÆäÀ´Ô´ 764²Î¿¼ÎÄÏ× 781µÚ¶þÊ®ÎåÕ ¶õ¶û¶à˹ÅèµØ±±²¿¶«Ê¤É°ÑÒÐÍÓË¿ó³É¿óÌØÕ÷ºÍģʽ 785**½Ú ¶«Ê¤É°ÑÒÓË¿óµØÖʱ³¾°ºÍ»ù±¾Ìصã 785µÚ¶þ½Ú ¶«Ê¤É°ÑÒÓË¿ó»ÒÂÌÉ«É°ÑÒ³ÉÒòÑо¿ 789µÚÈý½Ú Ö±ÂÞ×éÉ°ÑÒµÄÊ´±ä×÷Óà 796µÚËÄ½Ú ÓлúÖÊÌØÕ÷¼°ÆäÓëÓ˳ɿóµÄ¹Øϵ 801µÚÎå½Ú ¶«Ê¤É°ÑÒÐÍÓË¿óµþºÏ³É¿óģʽ 814²Î¿¼ÎÄÏ× 818µÚÎåƪ ÓлúÎÞ»úÄÜÔ´¿ó²úÏ໥×÷ÓõÄʵÑéÄ£ÄâÑо¿µÚ¶þÊ®ÁùÕ ÌìÈ»ÆøÔÚÓ˳ɿóÖеÄ×÷Óà 823**½Ú Ä£ÄâʵÑé¼°Æä²úÎïºÍ·´Ó¦Àú³Ì 823µÚ¶þ½Ú µØÖÊÑéÖ¤ºÍ´´Ð»úÀí 829²Î¿¼ÎÄÏ× 830µÚ¶þÊ®ÆßÕ ÓËÔÚÌþÔ´ÑÒÉúÌþÑÝ»¯ÖеÄ×÷Óà 832**½Ú ÓÍÆøÉú³É¹ý³ÌÖеÄÓлúÎÞ»úÏ໥×÷Óà 832µÚ¶þ½Ú ÓËÔÚÌþÔ´ÑÒÉúÌþÑÝ»¯ÖÐ×÷ÓõÄʵÑéÑо¿ 834µÚÈý½Ú ʵÑéÑùÆ·Óë·½·¨ 835µÚËÄ½Ú ÓËÔÚIÐÍÌþÔ´ÑÒÉúÌþÑÝ»¯ÖеÄ×÷Óà 837µÚÎå½Ú ÓËÔÚIIÐÍÌþÔ´ÑÒÉúÌþÑÝ»¯ÖеÄ×÷Óà 845µÚÁù½Ú ÓËÔÚIIIÐÍÌþÔ´ÑÒÉúÌþÑÝ»¯ÖеÄ×÷Óà 851µÚÆß½Ú ÓËÔÚµÍÊìúÉúÌþÑÝ»¯ÖеÄ×÷Óà 858µÚ°Ë½Ú Ä£ÄâʵÑé½á¹û²îÒìÐÔ·ÖÎö¼°ÆäÓëµØÖÊʵ¼ÊÖ®¼äÏà¹ØÐÔ 860²Î¿¼ÎÄÏ× 863µÚÁùƪ ÓëÄÜÔ´¿ó²ú°éÉúµÄÆäËû¿ó²ú×ÊÔ´µÚ¶þÊ®°ËÕ úÐÍïØ(ÂÁ)¿ó´²Ðγɡ¢ÌØÕ÷¼°Æä·Ö²¼ 869**½Ú ×¼¸ñ¶ûºÚá·¹µ¿óú²ãµÄúÑÒѧºÍú»¯Ñ§ÌØÕ÷ 870µÚ¶þ½Ú ïصÄ×ÊÔ´/´¢Á¿ÆÀ¹À 874µÚÈý½Ú ×¼¸ñ¶ûúÖÐïصÄÖ÷ÒªÔØÌåÓëïظ»¼¯ 877µÚËÄ½Ú ×¼¸ñ¶ûµç³§È¼Ãº²úÎïµÄ¿óÎïѧºÍµØÇò»¯Ñ§ 882²Î¿¼ÎÄÏ× 889µÚ¶þÊ®¾ÅÕ úÖаéÉú¿ó²úµÄÐγÉÓë·Ö²¼ 893**½Ú úÖаéÉú¿ó²úÑо¿½øÕ¹ 893µÚ¶þ½Ú ÖйúúÖÐÖ÷Òª°éÉú¿ó²ú 896µÚÈý½Ú úÖаéÉú¿ó²úµÄ³ÉÒòÀàÐͼ°ÀûÓÃÇ°¾°Õ¹Íû 919²Î¿¼ÎÄÏ× 922µÚÆßƪ ¶àÖÖÄÜÔ´¿ó²úЭͬ¿±Ì½Ä£Ê½Óë³Á»ýÅèµØ³É¿óϵͳµÚÈýʮՠ¶õ¶û¶à˹ÅèµØ¶àÖÖÄÜÔ´¿ó²ú·Ö²¼ÌØÕ÷ÓëЭͬ¿±Ì½ 929**½Ú ÅèµØ¶àÖÖÄÜÔ´¿ó²úµÄʱ¿Õ·Ö²¼ÌØÕ÷ 929µÚ¶þ½Ú ¶àÖÖÄÜÔ´¿ó²ú³ÉÉúÓë¹²´æ¹Øϵ 933µÚÈý½Ú ¶àÖÖÄÜÔ´¿ó²ú³É¿ó½×¶Î»®·ÖÓë³É¿óϵͳ·ÖÎö 939µÚËÄ½Ú ¶àÖÖÄÜÔ´¿ó²úЭͬ¿±Ì½ 944²Î¿¼ÎÄÏ× 951µÚÈýʮһÕ ³Á»ýÅèµØ³É²Ø£¨¿ó£©ÏµÍ³ 954**½Ú ³Á»ýÅèµØ¶¯Á¦Ñ§ÓëÅèµØ³É¿óϵͳ 954µÚ¶þ½Ú ³É¿óÌص㼰ӰÏìÒòËØ 956µÚÈý½Ú ³É¿ó×÷Óú͹ý³Ì 961µÚËÄ½Ú ³É¿ó»·¾³Óë±³¾° 970²Î¿¼ÎÄÏ× 974The dynamics of sedimentary basins and energy minerals Preface Part 1 Coexisting characteristics, accumulation (mineralization) mechanism, and spatial enrichment law of oil/gas, coal and uranium in the same basin Chapter 1 Global characteristics and distribution law of oil, gas, coal and uranium coexisting in the same basin 3 1.1 Resources and production of global uranium deposits and sandstone-type uranium deposits 3 1.2 Distribution characteristics of sandstone-type uranium deposits discovered in the world 15 1.3 Characteristics of oil, gas, coal and uranium co-existing in basins 26 References 35 Chapter 2 Metallogenetic province of multi-energy minerals in Central-east Asia 46 2.1 Subdivisions of the Central-east Asia multi-energy minerals metallogenetic domain and distribution of those basins 46 2.2 Types of energy basins in the Central-east Asia 55 2.3 Occurrences characteristics and distribution pattern of multi-energy minerals 58 2.4 Geodynamic environment and evolution of multi-energy basins 65 References 70 Chapter 3 Mineralization mechanism, spatial enrichment law and related advances of oil/gas, coal and uranium coexisting in the same basin 73 3.1 Fundamental features and mineralization characteristics of oil, gas, coal and uranium 73 3.2 Co-existing characteristics and distribution pattern 79 3.3 Metallogenetic conditions and occurrences environment 88 3.4 Interaction and accumulation/mineralization mechanism of oil, gas, coal and uranium 119 3.5 Distinguishing signs of Co-exist of multiple energy minerals 148 3.6 Integrated assessment, prediction and co-exploration of multiple energy minerals 156 References 165 Part 2 Deep structure, tectonic-thermal characteristics and evolution in the Ordos Basin Chapter 4 Geophysical field and deep structure in the Ordos Basin and its adjacent areas 179 4.1 Features of geophysical fields and deep structure in the Ordos Basin and its adjacent regions 179 4.2 Observation of the crustal and upper mantle structures from broadband seismics in the southern Ordos Basin and its adjacent regions 184 4.3 Surface wave dispersion features and 1 -D velocity structure beneath the southern Ordos Basin and its adjacent regions 200 4.4 The Meso-Cenozoic geodynamics of tectonic evolution in the southern Ordos Basin and its adjacent regions from deep structure 205 References 208 Chapter 5 Geothermal field and thermal history reconstruction in the Ordos Basin 212 5.1 Characteristics of present geothermal field in basin 212 5.2 Recovery of paleo-geothermal field and characteristics of thermal anomaly in the Late Mesozoic basin 220 5.3 Late uplifting cooling and recovery of basin geothermal history in basin 230 5.4 Tectonic thermal events and their forming background in basins and adjacent areas 238 5.5 Basin thermal history and formation of multi-energy minerals 243 References 247 Chapter 6 Geochronology of tectonic-thermal events during the Meso-Cenozoic in the Ordos Basin 251 6.1 Geochronology records of the Meso-Cenozoic tectonic events in the southwest Ordos Basin 251 6.2 Geochronology records of the Meso-Cenozoic tectonic events in the northeast Ordos Basin 260 6.3 Peak age coordinates of the Meso-Cenozoic tectonic events in the Ordos Basin 270 6.4 Meso-Cenozoic tectono-thermal conversion effecting on the coexistence of multi-resources 275 References 293 Chapter 7 Meso-Cenozoic depositional and burial histories in the Ordos Basin 296 7.1 Current stratigraphic framework 296 7.2 Calculation of the unconformity surfaces denudation thickness 304 7.3 Burial history of the strata 314 References 320 Chapter 8 Cenozoic tectonic inversion and geodynamic setting in the Ordos Basin 323 8.1 Determination of the tectonic reverses in the east and west of Ordos Basin 323 8.2 Significance of the tectonic reverses in the east and west of Ordos Basin 331 8.3 Geodynamic environment of the tectonic reverses in the Ordos Basin 332 References 337 Chapter 9 Formation, evolution and environmental changes in the Ordos Plateau 340 9.1 Formation of the Ordos Plateau from the Mid-Late Miocene to Early Quaternary 340 9.2 The lateritic clay of Ordos Plateau and its adjacent areas 344 9.3 Dissolution of ¡°lateritic clay plateau¡±, the formation and environmental change of Loess Plateau 359 References 363 Part 3 Fluid-rock interaction between organic and inorganic materials and its implications for co-existance of multi-energy resources Chapter 10 Distribution patterns of sedimentary organic facies and geochemical conditions for coexistence of various organic energy resources within the same basin 371 10.1 Sedimentary organic facies 371 10.2 Sedimentary organic facies division and facies characteristics in Mesozoic 372 10.3 Model of sedimentary organic facies and potential of hydrocarbon generation and type of mineralization in Mesozoic 381 10.4 Discussion on numerical analysis method of sedimentary organic facies 385 References 387 Chapter 11 Characteristics and distribution of radioactive anomalies originated from different strata in the Ordos Basin 390 11.1 Identification of radioactive anomalies 390 11.2 Characteristics and distribution of radioactive anomalies originated from different strata of the Ordos Basin 391 11.3 Genetic analysis of radioactive anomalies 402 11.4 The forming environment and mechanism of radioactive anomalies originated from different strata of the Ordos Basin 409 References 413 Chapter 12 Distribution, occurrence and enrichment mechanism of uranium element in the Chang-7 interval of the Yanchang Formation in the Ordos Basin 415 12.1 Features of uranium anomaly of source rocks in Chang-7 interval of Yanchang Formation and the logging identification 415 12.2 Petrology and element geochemistry characteristics of Chang-7 interval oil shale with anomaly uranium 422 12.3 Occurrence and enrichment mechanism of uranium in the source rocks of Chang-7 interval 434 References 445 Chapter 13 Northward migration-dissipation of the natural gas in Upper Paleozoic strata in the northern Ordos Basin 446 13.1 Geochemical evidences of the natural gas migration and dissipation 446 13.2 Dynamics and passage of the natural gas migration 454 13.3 The estimated loss amount of natural gas 457 References 463 Chapter 14 Natural gas dissipation and characteristics of bleaching sandstone in the northeastern Ordos Basin 465 14.1 Geological and geochemical evidence of dissipation of natural gas 465 14.2 Characteristics and forming mechanism of bleaching sandstone in the northeastern Ordos Basin 477 References 496 Chapter 15 Migration-dissipation of natural gas and its geological effect£¬identification 500 15.1 Introduction 500 15.2 Evidences of the dissipation of natural gas 502 15.3 Geological alteration and the effects of uranium mineralization 507 15.4 Causation analysis of geological alteration effects 519 15.5 Related experimental process of the geological effects of dissipation of natural gas 532 15.6 Discrimination indicator of the alteration of natural gas dissipation and uranium ore-formation model 537 References 542 Chapter 16 Geochemistry records of hydrothermal activities of multi-energy resources 545 16.1 Features of accumulation environment of multi-energy resources 545 16.2 Geochemistry records of hydrothermal activities of multi-energy resources 550 References 563 Part 4 Occurrence, mineralization and distribution of multi-energy resources in the Ordos Basin Chapter 17 Occurrence, accumulation and distribution of hydrocarbon resources in the Ordos Basin 567 17.1 Geological background of petroleum occurrence in Ordos Basin 567 17.2 Accumulation and distribution characteristics of the Paleozoic gas reservoirs 571 17.3 Accumulation and distribution characteristics of the Mesozoic oil reservoirs 583 References 598 Chapter 18 A novel pool-forming model of the low-permeability oil field in the Yanchang Formation 601 18.1 Geological background and reservoir formation conditions of the Xifeng oilfield 601 18.2 Diagenesis and hydrocarbon charge history of major reservoir in the Xifeng oilfield 605 18.3 Direction and distance of the second migration of the oils in the Xifeng oilfield 611 18.4 Accumulation process and model of the Xifeng oilfield 618 References 623 Chapter 19 Fluid dynamics, migration pathways and pool-forming effect in northern Ordos Basin 632 19.1 Separation of hydrodynamic system 632 19.2 Distribution and evolution of fluid dynamics 641 19.3 Dominant migrating channel of the natural gas 653 19.4 Reservoiring pattern and migration of the nature gas 660 References 674 Chapter 20 Geological characteristics, distribution and potential resource of coal resource in the Ordos Basin 678 20.1 Geology characteristics and resource potential of the Carboniferous-Permian coalfield 678 20.2 Geology characteristics and resource potential of the Triassic coalfield 686 20.3 Geology characteristics and resource potential of the Jurassic coalfield 686 20.4 Analysis of coal resources and development situation 693 20.5 Coalbed methane resource 694 References 701 Chapter 21 Distribution, basic characteristics of the sandstone-type uranium deposit in the southern Ordos Basin 703 21.1 Types and spatial and temporal distribution of uranium deposit in the southern Ordos Basin 703 21.2 The characteristics of sandstone-type uranium deposit in the southern Ordos Basin 707 21.3 Comprehensive comparison of sandstone-type uranium mineralization in the southern and northern Ordos Basin 721 References 725 Chapter 22 Geological characteristics and mineralization of sandstone-type uranium deposit developed in fault-fold structural belt in the Ordos Basin 726 22.1 Uranium mineralization environment in Huianbu area 726 22.2 Mineralization characteristics of sandstone-type uranium deposit in Huianbu area 732 22.3 Mineralization model of uranium deposit in the Huianbu area, western edge of fault-fold zone 742 References 745 Chapter 23 Relationship between the Jurassic coal-bearing strata and uranium mineralization in the northeastern Ordos Basin 746 23.1 Isochronous stratigraphic architecture of coal-uranium-bearing strata 746 23.2 Hydrocarbon generation capacity of the Jurassic coal-bearing strata 751 23.3 Potential influence of Jurassic coal-bearing strata on uranium mineralization 754 References 759 Chapter 24 Geochemical characteristics and source of organic matter in the Dongsheng sandstone-type uranium deposit 762 24.1 Samples and experimental 763 24.2 Organic geochemical characteristics and their sources 764 References 781 Chapter 25 Metallogenic features and model of the Dongsheng sandstone-type uranium deposit in the northeastern Ordos Basin 785 25.1 Geological setting and basic signatures of Dongsheng sandstone uranium deposit 785 25.2 Origin of greenish sandstones in the Dongsheng ore area 789 25.3 Alterations of Zhiluo Formation sandstones related to uranium mineralization 796 25.4 Signatures of organic materials and their relations to uranium mineralization 801 25.5 Metallogenic superposition model of Dongsheng sandstone uranium deposit 814 References 818 Part 5 Experimental simulation of the interaction between organic and inorganic energy minerals Chapter 26 Role of natural gas in the process of uranium mineralization 823 26.1 Simulation experiment results and the reaction mechanism 823 26.2 The verification by geological conditions and the novel mechanism 829 References 830 Chapter 27 Effects of uranium on hydrocarbon evolution of hydrocarbon source rock 832 27.1 Organic-inorganic interactions in hydrocarbon generation process 832 27.2 Experimental study of the effects of uranium on hydrocarbon generation of hydrocarbon source rocks 834 27.3 Samples and methods 835 27.4 Effects of uranium on hydrocarbon generation of hydrocarbon source rocks with type-I kerogen 837 27.5 Effects of uranium on hydrocarbon generation of hydrocarbon source rocks with type-II kerogen 845 27.6 Effects of uranium on hydrocarbon generation of hydrocarbon source rocks with type-III kerogen 851 27.7 Effects of uranium on hydrocarbon generation of immature coal 858 27.8 Difference and correlation between experiment and geology reality 860 References 863 Part 6 Other mineral resources co-existed with the major energy deposits Chapter 28 Formation, characteristics and distribution of coal-hosted Ga (Al) ore deposit 869 28.1 Coal petrology and chemistry of the coal in the Heidaigou coal mine 870 28.2 Estimations of Ga resources/reserves 874 28.3 Major carriers and enrichment of Ga in the Jungar coal 877 28.4 Mineralogy and geochemistry of coal combustion products from Jungar power plants 882 References 889 Chapter 29 Formation and distribution of coal-associated minerals 893 29.1 Advances of study on coal-associated minerals 893 29.2 Coal-associated minerals in Chinese coal 896 29.3 Genetic types of the associated minerals in coal and the utilization prospect 919 References 922 Part 7 Cooperative exploration mode about multi-energy resources and mineralization system within sedimentary basin Chapter 30 Distribution and cooperative exploration mode about multi-energy resources in the Ordos Basin 929 30.1 Space-time distribution of multi-energy minerals resources in the Ordos Basin 929 30.2 Relationship of genesis and coexistence of multi-energy minerals resources 933 30.3 Metallogenic stages classification and metallogenic system analysis of multi-energy minerals resources 939 30.4 Co-exploration mode of multi-energy minerals resources 944 References 951 Chapter 31 Metallogenic or pool-forming system within sedimentary basin 954 31.1 Dynamics of sedimentary basin and basin reservoir (ore) forming system 954 31.2 Mineralization characteristics and influencing factors 956 31.3 Ore-forming processes and mineralization 961 31.4 Ore-forming environment and setting 970 References 974